Collapsible stroller



Oct. 28, 1947. 'r. s. LINDABURY I 2,429,763

' COLLAPSIBLE STROLLER Filed April' 27, 1945 AShcats-Sheet 1 INVENTOR. Two: 5. LINDABUBY Oct. 28, 1947.

T. S; LINDABURY' COLLAPSIBLE'STROLLER vFiled April 27, 1945 4 Sheets-Sheet, 2

INVENTOR. TRYo'N S. LINDABURY Arro/QA/EY Oct. 28, 1947. T. s. LINDABURY 2,429,753

I COLLAPSIBLE STROLLER Filed April 27, 1945 4 Sheets-Sheet 3 V INVENTOR. 9 TRYON S. LIN DABURY T. S. LINDABURY COLLAPS IBLE STROLLER Filed April 27, 1945 4 Sheets-Sheet 4 INVENTOR. TRYON S. LIN DABURY FIG.18.

F'IG.17.

r5 7 Tana/Ev Patented Oct.v 28, 1947 TryonSl Lindabury, St. Louis, Mo. Application April 27, 1945; Serial N o.= 590,657 I 10-.Claim5. (Cl.-28038) This invention relates generally to: childrenrs vehicles; and more. particularlyto; that type of vehiclerknown' as a stroller *which'; is adapted .for normal use-as such, ormay ,be;folded;or,, collapsed into -.a. very compact: unit .for transportation. or storageipurposes.

The primary object :oftherinvention is found inztheprovisionof a stroller of; the collapsible type which is :providedwithwheeled unitszadapted for :angular; movement-"relative to: their :supports duringcollapsing:ofzthevehicle to :bringsuch units into: the generalplanemf .theefoldedxmembers, so that the finishedpfolded-unit will beofless thickness:than:the;: normal diameter :ofthe wheels.

A:- furtherr object is attainedt in a wheeled vehicleewhichhas;a:seat;unit,-a b'ack imitxand pairs of :upright members to: which, are 1 attached fwheel supporting. frames. each:having1wheel supporting means: pivoted; thereto:whereby; upon folding movement :of theiseat; back; uprightsand frames, theswheel supporting means-:and'theiwheels will be causedto-rotateabout centers'othertthan the normal rotatingzcenters'of thezwheelstorbring the wheels-into: positi'onzto lie; in the:general plane of the avarioussmemhers; therebyi'providing-a relatively thin :compactifolded". unit.

A: still: furtherfobject ;is :found; in; a collapsible vehicler-havingt-Wheeliunitsv ofrsuch lateral extent; Whenisetup for'u'sezztolessen the'z-tendency of lateraLtipping ryetfupon-fo-lcling eofithe vehicle will not-only moverangularly" torb'ring the wheels into theplane of'the supporting units and other frame members but .willzsimu-ltaneously swing; inwardly to materiallyzreduce the. =overallbwi'dth of the collapsed package.

Aiurther-object mayrrbe. found in a collapsible vehicle havingr-paii'ediangularly movable wheel units which. are interconnected'to control' and regulatethe angular'movementrof each wheel unit so that-upon collapsing Of-"the vehicle the/proper" movement and finalfpositioningwill be insured;

Another object is attainediin acollapsible Vehiclehaving a pushing handle connected to the back unit whichmay be normally connected to the rearwheel support to assist inmaintaining the vehicle in extended or useful position and'having a st'orage'or' packagecarrying bag: attached thereto; but when disconnected from the wheel support and the-vehicle collapsed; the handle can be movedover the-exposed mechanism andwheels to cover the same with the bag thereon andfiXed in that position to m'aintain the vehicle" in collapsed" position.

Other objects andadvantages of this invention WilLbeaapparent in the;iol1owing,;detailed description and accompanying drawings 7 (4 sheets) 4 in which:

Fig; 1 is a perspective-view of the Vehicle of this invention shown in extended position;

Fig. 2 is a perspective view-showingthevehicle iILitS collapsed condition;

Fig. 3--is a side elevation-of the extended vehicle;

Fig. 4 is an elevationa-l view partly in section of the rear-;wheel supporting frame as viewed on line 4.4;' of'Fig. 3;

Fig.5 is a plan view-thereof taken on line 5-5-of Fig 6 185311 end-elevation of a portion of the vehicleras viewed along-line; 6-6 -of- Fig. 3;

Fig, 7; isa plan-view of the entire vehicle;

Fig.- 8is=a fragmentary-elevation of a portion of the f orward, wheel, supporting structure;

Figs; 9.- and 10- are; detail sectionstaken onlines 99 and.-.I.0'.-.Ill-, respectively, of Fig.- 8;

Fig. llz-is an elevational viewi of the, folded vehicle with", the handle cover I partially open;

Fig. 12 is-aside elevation thereof;

Fig.; 13-.is; a-cross:sectiontakenon line I3 ,-;-I3 of Fig. 11;';

Figs. 14, 15; 16,; 1'7; 18-and; 19-are diagrammatic views illustrating; thevvarious: stages of collapsing of the vehiclefromi-ull open to nearly; full closed position.

The preferred construction ofthe vehicle embodying the features of this inventionare shown in: the drawings as comprising; generally, a seat unit 20, backunit 2|; handle unit: 22', forward wheel unit. or,-assembly 23; =and a rear wheel unit or assembly z ls The seat unitill); is made upiof aseat panel :25 ofiormed'and'flanged sheetmetal construction:suitably-attachedat its rear end: to a-transverse supporting tube 26. Spaced laterally outward from the=seat-panel ZSand'formingpart of the seat unit;- are tubular side;- members' 21 havingsecured tothe rear portions thereof channel: member 28f to which are fastenedthe ends of cross-tube 26; The forward-g portion of side members 21 have: secured-theretooif=set plate members -29-in-t-he extend-ingportions of which are=fitted pivot pins 30-; Pivotally-mountedintermediate its ends -on-the :pins 30 areforward uprightmembers-Z-H; the-innerends of the pins beingzconnected asby-angleystraps 32, to a-transverse angle member secured to-andlocated near'the forward endiofthe seat pane1 25. The central'and'forwardportion of the seat'panel 25 is formedupwardly ati33 rto allow space for certairriportions of the mechanism'upon folding or collapsing thereof as, willabe-hereinafter described;

3 From the foregoing it will be seen that the seat unit 28 is fabricated of a number of component parts o constructed and related that a space 34 is provided between the seat panel and the outer members 21 for the reception of the forward upright member 3| upon Collapsing of the vehicle.

Pivotally mounted within the channels 28 of the side members 21 as by pins 35 are upright side tubes 36 of the back unit 2|, a curved back panel 31 being fixed to the rear face of tubes 36 to complete the back unit 2|. The inner faces of side tubes 36 are provided with slots 38 for slidingly receiving pins 39 mounted in the rear portion of one flange of channel shaped'arm rests 46, the forward ends of which are pivotally connected by pins 4| to the upper ends of the forward upright members 3|. v It will be noted by reference to Fig. 3 that the upper end of tubes 3| are extended to engage the inner face of the upper wall of channel arm 46 forming a stop to prevent further angular movement of the arm and tube. Fixed to the inner faces of side tube members 36 near the lower end thereof are stop plates 42 which are offset to overlie the channel members 28 and extend downward and forward to engage the head portion of stop pins 43 fixed in the side tubes 2'! and channels 28 of the seat unit 20 to limit the rearward movement of the back unit as shown in Fig. 3.

Pivotally attached to the inner upper portion of back unit side members 36 by pins 46 are fittings or brackets 41 secured to and offset from the lower ends of a U-shaped frame member 48 of the handle unit 22. A curved cross member 49 extends across and is fixed to the lower end of the frame member 48 to form a stop for limiting the angular movement of the handle unit 22. The cross member 49 combines with an upper cross member 50 to support a pleated expansible bag having a closure flap 52 and furnished to carry packages or other articles and further to cover the internal parts of the vehicle when in closed or collapsed position. An oppositely extending flap 53 is attached to the upper cross arm 58 and has snap fasteners 53 thereon which are adapted to engage mating fasteners 54 on the seat panel 25 to maintain the vehicle in its collapsed or folded position as later described.

Fixed to the forward upright members 31 near the lower ends thereof are plates 55 having forwardly projecting portions which are pivotally connected to the ends of a cross tube 56 by pins 51. Secured to and extending downwardly from tube 56 and spaced a suitable distance inwardly of each upright 3| are bolts or pins 58 which carry for swinging movement thereon, wheel mounting or supporting blocks 59. A torsion spring 66 attached at each of its free ends to the bolt 58 and block 59, respectively, urge the block to rotate rearwardly then inwardlyabout the bolt to complete a half revolution to a position shown in broken lines in Fig. 8. Such movement is limited by the engagement of a pin 6| on block 59 with stop slots 62 in cross tube 56. A reduced portion 63 of block 59 projects outwardly to receive a vertically positioned bolt and nut assembly 64 extending above and below the portion 63 to receive spacer'elements 65 and 66. Pivotally mounted on the spacer element 66 are transverse wall portions of a fork member 61 which extends downwardly and is off-set to receive between the legs thereof, a wheel 68 rotatably mounted on a shaft 69; the off-set location of the wheel axis with respect to the vertical pivot of the fork allows a castering action of the wheel. An arcuate loop member 10 is positioned about the upper spacer 65 and has a portion which extends inwardly then downwardly through a bore in block 59 to form a locking leg 7|, A compression spring 12 positioned between the loop and the head of bolt 64 urges the loop downwardly which, in one position of parts, extends the leg below the lower face of block 59. in which position the lower end of the leg is free to enter the opening in a projecting portion 13 of fork 61 to lock the fork and wheel in its transverse aligned position. Upon manually lifting the loop against the force of spring 72 to disengage the fork projection and rotating same about the leg to extend the loop over a ledge 74 of block 59 the leg II will be removed from the path of fork projection 13 to allow free pivoting of the fork and wheel about the bolt 64 for castering movement thereof. E-xtending transversely through and secured to the block 59 is a cable 15 which wraps around tube 56 and upright 3| for securement to the inner face of the upright at 76 for controlling the rotative movement of the block and wheel assembly as later described. The lower end of upright 3| is angularly terminated at 11 to bear against block 59 and maintain the pin 6| in engagement with one stop slot 62 as shown in Fig. 10.

The above described parts, including the cross tube, supporting blocks and forks may be termed a forward wheel supporting assembly or unit which by action of springs 66 tend to rotate forwardly about pins 51. Such rotation of this assembly will be accomplished by pivotal movement of blocks 59 rearward and inward about bolts 58 as urged by torsion springs 69 to cause the cables 15 to wrap around these blocks. This action of blocks and cables will shorten the effective cablelength between cable attachments l6 and a transverse plane through the axes of bolts 58 thus producing a pivotal movement of the assembly forward and upward relative to pivot 51 until such blocks and wheels lie in a plane parallel with the upright members 3| as shown in Fig. 11. To prevent such rotation during the extended or open position of the stroller there is provided a collapsible tension member 18 which comprises telescoping tubes 19, 86 and 8|. Theforward tube 19 is pivotally secured by pin 82 to the lower end of paired brackets 83 fixed to and depending from the cross tube 56 and is longitudinally slotted to receive the pin 84 at the forward end of center tube 86. The rear tube 8| is also slotted to receive a pin 85 of tubeBU and is fixed at its rear portion to the rear wheel supporting unit to be presently described.

Pivotally mounted within channels 28 of side members 21 as by pins 86 and extending rearwardly downward therefrom are rear supporting tubes 61 having stop plates 88 attached to their upper portions and overlying the channels so that the legs thereof contact the outer extremity of stop pins 43 in side tubes 27 to limit the rearward pivotal movement of the tubes or uprights 81. Fixed to the lower end of tubes 87 is a transversely positioned channel member 89 which has bent over ends for attachment to the tubes by rivets 98. Rear wheel supporting blocks 9| have one extremity pivotally attached within the channel 89 by pins 92 just inward of tubes 8'! and extend outwardly therefrom to receive a vertically positioned pin 93. Pivotally mounted on the lower projecting portions of pins 93 are the hub extensions 94 of shafts or axles 95 on which are rotatively;positionecbrear wheelss9fico, Alsarmoun-ted on pinse93-on either:sidetofihubsgfltare Leshan plates- 9?! which -;have leg; portionsrenga in :the shoulders: of the hubs-for: movement-z therewith and other: leg; portions: which: pivotally: receive shoul'dered-pinsdd.

Mounted above: and inwardly 'of-i block pivots 92 for-rotation inechan nelcfl9sarezangle 6116.5 299 otilevers .lflil; thewouter: ends ofi-which areepivotally.-mounted in pins: 88 for universal action with the:-plates=9-l. Extendingoppositely-beyond theangle portions 99 'oflevers I 60 arearms-I01 to which are attached for universal movement therewith-the outer endsiof ilinks 1.92: The ppositaends of links-1i 6-2 I arerattaehedb ball ,-j pint or. universal.-.connectiens: H33 -to-a-fitting-it64rsurrounding'and.fixed-tothe-rear tube-:8! ofrthe telescoping tension member J8: Angle members I extending.- forwarcll-y; and downwardly from; the channel. 89 arepivotally connected by pin; I06- to. the :rear'portion vof, tube-:81. It-willlbee seen that angular movement of theatubeefi'l upward and rearward willcause a shortenin of I the lateralidistance between balljointr liltand arms Hi l,- thus-causing an angular:movementzoflevers i98 Such-rotation of-- levers led-will cause-blocks 9| torbe. rotated inwardlyand at the same: time causes-rotation of plates 91 and wheel shafts. or axles.- 95. to move the.- wheelse fi inwardly andangularly to the position shown: in .broken linesnin Fig 4, andaswill moreclearlyappear hereinafter. wherein, the complete operation and folding,.-of the stroller.- is-described inodetail.

Removablyattached -to a pin. l ll8t-fix'ed in. suitable upstanding ears on channel 89 is a hook-end limof ahandle grip llil to the oppositeloop end I! .L of. which is fastened the-lower end. of:.a-.-V- shaped cable 2.- The.uppenendseofthe-cable are: securedito the cross. tube :55): of handle 22 outwardly of bag 51. Thismcable. attachment providesatension tie betweenthe. handle: 22. and rear wheel unit.2 4.to maintaimthe handle unit; backunit and rear upright in :their extended :position and against their. respectivestops;

To provide. safetymeans for retainingthe oe.- cupantinlthe. stroller there is-i1-1uStrated'i-n-Fig1 .1 a-he1t. H5 laced throughsui-table slotted. OPQH". ingsat. the sides I of, back; panel '31: and having fastening meansv at .each. end thereof -.in.the.usu-al manner. Since this .beltwould causeeconfusion in .theremaining illustrations, it .is-only shown-in Fig.1.

Withreference to the. drawings, and in'particular Figs. .14.; to 18. which diagrammatically illustrate the variousstages ofthe folding-oncollapsingv of the. stroller, the operation of. such folding will now be described. The handlezLiElis graspedand thehook end 509-. released .from pin ms" after which the. handle andcable. H2. are stowed in bag 5!. In thelsame sequencetherloops 'Hlof" the .forward. wheel. units are: manually; rotated aboutthe legs ll untilv clear. of thevle'dges Tlan'd'then releasedto allow the .ends ofthe legs to project below the. lower face. of. blocksv 5.9. Wheel; forks 6 1 are then rotated. inwardlyto bring the openings in extensions l3'..into..alignment with the legs 'H' locking the 'wheelsand forks intothe position shown byibrok'en. linesat A in Fig, 8, the rounded edgesof the extensions eamming legs up.ward1y.to..allow passagethereof. Theresults of above describedsequence or'stage offolding. are illustrated in Fi 15.

Theupper edge of the'back panel-31 and the forwarded-ge of seat 25' are. thengrasped and drawntoward each other' to :brin these members into:ra:..common plane, the, various stages 'of' this operation. being; shown in Figs. 16, 17 and 18; Duringthiszoperation'the pins 39 will movealong slotsy38 due-.to-thedifferent relative lengths of armerestsfilleand seatnunit 25 and thelowerends of-1-tube' 3-l-will move1 into the space 34 between the=outer-'tubes.2"l' and .seat panel 25-while the channel armirest's; overlie a portionof the tubes 3gb Thedecreasi-ngsang-ular relation of the for ward;up rights 31 and seat unit 25 moves' the forwardiwheel unittoward therear wheel supporting. UpIlQhtS'tOZ-IBHIOVQ the effect of' the telescopic :tensionmembers, i8 and allowrotation of the transversertube-Bfiirelative-to the uprights 31'. Such-rotation is-causedf by the effect of springs fiflwurgingmhe blocks-59 rearwardly and inwardly as limitedby the slacking offof' cables I5 and tension member-"18?- Such rotation of'the tube 56 and blocks 59 bring the forks and Wheels to an inward'positionas shown at B of Fig. 8 and asdi-mited' by the engagement of pins 6!" with innerstop slots- 62- when the closing or folding movement above described has been completed. In this position otparts the wheels and associated parts have-been brought inwardly andin a-plane paralleltothe general flatwise plane of thet-foldedseat' and.- back as shown in Figs. 11, 12, 13 and 18. During this portion of the foldin movement the tension unit 18 will telescope or collapse to'some extent since its extended relationis no-longer=maintained or necessary; and, inzadditionthere will be adefinite angular movement" thereof relative to the forward wheel supporting unit.

The angularmovem-ent of the telescoping-member 18 causediby the folding action of forward wheeliunit willalso cause a change in the angular relation of-the member 'ldtotherearwheel'un-its about the pivot pin I06: Such relative angular change'will shorten the distance betweenball joints- I03 and" lever arms I!!! which through actionoflinks I02; will move arms lb! and their associated levers I00 angularly about angleends 99. Theeangulanm-ovement of levers 1% will cause; a compound movement of the wheels 96-to bring-the-Wheels-into the=p1ane of-uprights 81 and inwardly towardrthe center of thestroller to the broken line position indicated at' C in Fig. 4. The above.describedangulan andinward movement of wheels 96, however, is. onlypartly brought about by theioldingof forward=uprights 3i as above set :forth, thecompletion ofsuch movement being accomplishedbythe.manual rotation of the rear wheel uprightsabolltpins: 8 6, as shown in Figs. l8 and 19'. This movement not only completes the. angular anolinward movement of the wheels to aplaneparallel-to.the general plane of the foldedvehiclebut .also brings the rear wheel upright members into such folded plane as clearly shown in Figs.-,l-.1, v12, 13 and 19.

As-thefinalsteps in the folding of the vehicle the handle22 isrotated about the pin 46 to bring same into overlying relation with the open side ofIthe. strollerand the flap 53 wrapped over the rear portion of seat panel 25 for engagement of snap fasteners. 53.. and. 54. It will be seen that in.this-foldedfcondition the wheels and associated mechanism andpartsare concealed on one side by seat panel. fifiandback panel 31 and onthe opposite side. by bag. 5!, while the side ofthe bag provided with the flap-opening remains exposed for-.the. stowageof any desired articles.

The opening of; the stroller is accomplished by; a: reversed sequence of. movements to. bring samezto itsextendedposition by manual movement of the handle, rear uprights and angular manipulation of the seat and back units. During the relative movement of the seat and back the telescopic unit 13 will be extended to its full length to restrict the forward movement of the front wheel assemblies. Such restriction will cause an angular rotation of the transverse tube 56 relative to the forward uprights 3|, which, due to the tensioning and pull of cables 15, will force blocks 59 to swing rearward and outward to their normal operating positions against the forces of springs 69. At the final position of these parts the angular terminals ll of tubes 3| will strike blocks 59 and force stops 5| against the outer stop slots 62 to maintain the blocks in locked position. The manual unlocking of the forward wheel forks 61, by the actuation of loops IE3 and legs M, will then allow free castering effect of the forward wheels.

The hook end m9 of tension cable H2 may now be moved to engage pin Hi8 whereby the stops 49, 42 and 83 will be held in engagement with tubes 36 and pins 43 to maintain the extended or useful condition of the stroller, and prevent inadvertent collapse thereof. The effect of the tension member i8 is to retain a rearward force on the forward wheel unit and maintain same in its extended position. During the unfolding operation, or the angular movement of seat and back, the upper forward edges of the uprights 3! will engage the inner face of the channel arm rests 40 to cause a sliding movement of the rear end pins 39 of such arm rests downward along slots 38 and prevent excessive angular motion or collapse of the arm rests and uprights.

While only one specific embodiment of the present invention has been illustrated in the accompanying drawings and described herein, it is to be understood that various detailed modifications in structure or operation may be made without departing from the spirit and intended scope of the appended claims and as defined therein.

I claim:

1. A collapsible vehicle having a seat, back, forward and rear upright members each pivoted to another for folding movement, wheel supporting units on the forward and rear uprights, wheels rotatively mounted thereon, resilient means at the forward supporting units tending to urge the wheels angularly and inwardly upon folding movement of the vehicle, means at the rear supporting units to cause angular and inward movement of the Wheels upon actuation thereof, and a connecting device betwwen the forward and rear units operable upon folding of the vehicle to actuate the said means at the rear unit and control the actuation of said resilient means at the forward unit for correlated folding movement thereof.

2. In combination with a vehicle of the type described comprising a seat, back, forward and rear upright supporting members, of wheel carrying units for said upright members having associated therewith means to effect angular and inward displacement of the wheels, a first tension member extending between and connecting the forward and rear uprights and a second tension member connecting the rear upright and the back unit to maintain the parts of the vehicle in extended operating relation and condition, the first tension member also serving to correlate and operate the wheel displacement means upon folding movement of the vehicle.

3. A vehicle of the type described comprising a seat unit, a back unit hinged thereto, forward wheel supporting uprights pivoted to and having a portion extending upwardly from the seat unit, arm rests joining the upper portion of said uprights to the back unit, rear wheel supporting uprights pivoted to the seat unit, stop means limiting the angular movement of the back and rear uprights relative to the seat unit, a collapsible tension member connecting the lower ends of forward and rear uprights, and disconnectable means connecting the back unit and rear uprights to maintain the parts in their stop limited position whereby the vehicle is in its extended useful condition.

4. A vehicle of the type described comprising a seat unit, a back unit pivoted thereto, forward supporting uprights pivoted intermediate their ends to the seat unit, arm rests hinged to the upper end of said uprights and the back unit, rear supporting uprights pivoted to the seat unit, stops fo limiting angular movement of the back unit and rear uprights relative to the seat unit, wheel mounting assemblies on the forward and -rear uprights, wheels rotatable thereon, means on said mounting assemblies for moving the wheel angularly and inwardly, a telescopic tension member connecting the mounting assemblies to control the movement of said assemblies and said means during folding of the vehicle, and a disconnectable'tie between the back unit and rear wheel mounting assemblies to maintain the back unit and rear uprights against said stops and secure the tension member in its extended position to insure the correct attitude of wheels and frame for normal extended position and use of the vehicle.

5. A vehicle of the class described comprising a seat unit, a back unit hingedly connected thereto, forward wheel supports pivoted to the seat unit forwardly thereof and having a portion extending upwardly therefrom, an arm rest joining the upper portion of said supports to the back unit, rear wheel supports pivoted to the seat unit rearwardly thereof, a transverse member pivotally attached to forward supports, wheel mounting blocks carrying forward wheel units and swingably attached to said transverse member, springs normally urging the wheel mounting blocks to swing inwardly, cables attached to the supports and to the blocks to control the swinging movement thereof upon relative angular movement of the transverse member and the supports, rear wheel mounting means for the rear support, and means connecting the forward transverse member and the rear mounting means to control the relative movement of the forward and rear wheel units during folding movement of the vehicle.

6. A vehicle of the class described comprising a seat unit, a back unit hinged thereto, forward upright members pivoted to the seat unit and having a portion extending upwardly therefrom, arm rests joining the upper portion of said members to the back unit for pivotal movement therewith, rear upright members pivoted to the seat unit, Wheel mounting units attached to the for- Ward and rear upright members, wheels rotatively attached to said mounting units, means on the forward wheel mounting units to cause automatic retraction of the wheels angularly and inwardly upon folding of the vehicle, a telescopic unit connecting the forward mounting units with the rear mounting units, lever means for angularly and inwardly retracting the rear wheels, and links connecting the telescopic unit to the lever means for angular and inward retraction 9 of the wheels upon folding movement of the vehicle.

7. A vehicle of the class described comprising a seat, a back hinged thereto, forward supporting uprights pivoted intermediate their ends to the seat, arm rests pivoted to the upper end of said uprights and the back, rear supporting uprights pivoted to the seat, a transverse member pivotally mounted on and between the lower endof the forward uprights, opposed support fittings swingably attached to said transverse member normally positioned outwardly of the attachment point, spring means urging the fittings to swing inwardly, stop means limiting the swinging movement of the fittings, Wheel supporting forks pivoted to the outer end of said fittings for castering movement relative thereto, locking means associated with the fittings and fork to selectively lock the forks and wheels transversely of the vehicle, cables attached to the fittings and to the uprights to control the movement of said fittings and wheel fork assemblies upon relative rotation of the transverse member, and means controlling the rotation of such member connected thereto and to the rear supporting uprights.

8. A vehicle of the class described comprising a seat unit, a back unit hingedly connected thereto, forward upright members pivoted to the seat unit and having a portion extending upwardly therefrom, arm rests joining the upper portion of said members to the back unit for pivotal movement therewith, forward wheel mounting units pivot-ally attached to the lower portion of said upright members and having means adapted to move the wheels carried thereby angularly and inwardly upon folding movement of the vehicle; rear .upright members pivotally secured to the seat unit and having a transverse member attached to the lower portions thereof, fittings pivoted to the transverse member, wheel supporting bell-cranks hinged thereto, levers pivoted on the transverse member for causing conjoint swinging motion of the fittings and bell-cranks to move the wheels angularly and. inwardly into flatwise relation with the general plane of the rear upright members, and means connecting the forward and rear wheel mounting units and said levers whereby folding movement of the vehicle will cause angular and inward movement of the wheel units in correlated relation to each other.

9. A vehicle of the class described comprising a seat, a back hinged thereto, forward uprights pivoted intermediate their ends to the seat, arm rests pivoted to the upper end of said uprights and said back; a transverse member pivotally mounted on and between the lower ends of the 10 forward uprights, opposed support fittings swingably attached to said transverse member and normally positioned outwardly of the attachment point, spring means urging the fittings to swin inwardly, stops limiting such swinging movement, wheel supporting forks pivoted to the outer of said fittings for castering movement relative thereto, locking means associated with the fittings and forks to selectively lock the forks and wheels transversely of the vehicle, cables attached to the fittings and to the forward uprights for controlling the swinging movement of said fittings and wheel forks upon rotation of the transverse member relative to the forward uprights, and stop means associated with the uprights and fittings limiting the rearward movement of the fittings relative to the uprights; rear supporting uprights pivoted to the seat and having a transverse member attached to the lower ends thereof, fittings pivoted to the transverse member, wheel supporting bell cranks hinged thereto, levers pivoted to the transverse member for causing conjoint swinging motion of the fittings and bell cranks to move the wheels angularly and inwardly into flatwise relation with the general plane of the rear uprights, and means connecting the forward and rear transverse members and said levers normally maintaining the forward and rear wheel units in their extended position and whereby folding movement of the seat, back and uprights will cause angular and inward movement of the forward and rear wheel units in correlated relation to each other.

10. A vehicle of the class described comprising a seat having fasteners fixed thereon, a back hinged thereto, a handle member hinged to the back, forward and rear supporting uprights hinged to the seat and having wheeled units mounted on the lower portions thereof, means to maintain parts in extended position, a, panel on said handle comprising a storage bag which upon release of said means and folding of the vehicle will overlie and conceal the internal parts thereof, and a flap secured to said handle panel having fasteners cooperating with the seat fasteners to secure the vehicle in its collapsed condition.

TRYON S. LINDABURY.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Thomas Apr. 3, 1923 

